1962 IMO Problems

Revision as of 13:59, 29 November 2007 by Tree21c (talk | contribs) (Day II)

Day II

Problem 4

Solve the equation $cos^2{x}+cos^2{2x}+cos^3{3x}=1$.

Solution

Problem 5

On the circle $K$ there are given three distinct points $A,B,C$. Construct

(using only straightedge and compasses) a fourth point $D$ on $K$ such that

a circle can be inscribed in the quadrilateral thus obtained.

Solution

Problem 6

Consider an isosceles triangle. Let $r$ be the radius of its circumscribed

circle and $rho$ the radius of its inscribed circle. Prove that the

distance $d$ between the centers of these two circles is $d=\sqrt{r(r-

rho)}$ (Error compiling LaTeX. Unknown error_msg)

Solution

Problem 7

The tetrahedron $SABC$ has the following property: there exist five

spheres, each tangent to the edges $SA, SB, SC, BCCA, AB,$ or to their

extensions.

(a) Prove that the tetrahedron $SABC$ is regular.

(b) Prove conversely that for every regular tetrahedron five such spheres

exist.

Solution